A firefighter combat command and safety monitoring system and method

By integrating LoRa self-organizing network and AI dynamic decision-making module, the problems of inaccurate oxygen balance monitoring, unstable communication and low decision-making efficiency of existing firefighter combat command system in complex fire scene environment are solved, realizing stable communication and efficient command and coordination of the system.

CN122248022APending Publication Date: 2026-06-19SUZHOU CHIEN SHIUNG INST OF TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SUZHOU CHIEN SHIUNG INST OF TECH
Filing Date
2026-04-03
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The existing firefighter command and safety monitoring system suffers from problems such as insufficient oxygen balance monitoring accuracy, unstable communication, low decision-making efficiency, and poor system compatibility in complex fire environments, making it difficult to meet the needs of actual combat.

Method used

The firefighter command and safety monitoring system, which adopts LoRa self-organizing network and AI assistance, builds stable communication through LoRa dual-link self-organizing network, integrates multi-parameter acquisition module to dynamically calculate oxygen balance, and combines AI dynamic decision module to perform risk assessment and command feedback closed-loop control.

Benefits of technology

It enables precise monitoring of oxygen reserves, improves communication stability and coverage, enhances decision-making efficiency and system synergy, and ensures the safety of firefighters and the efficiency of command and coordination.

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Abstract

This invention discloses a firefighter combat command and safety monitoring system and method, relating to the field of fire rescue safety monitoring and command control technology. The system includes a control center host and smart safety helmet units worn by firefighters. Wireless self-organizing network communication is achieved between the host and the units, and between the units themselves, via LoRa antennas. The host acquires real-time vital signs and environmental information of each firefighter, including oxygen tank levels, posture, and fall detection data, and can issue command instructions such as retreat, assembly, and early warning to one or more units. Simultaneously, the host integrates an AI-assisted decision-making module, which can provide real-time combat suggestions, risk warnings, and emergency response plans based on on-site data, assisting commanders in making rapid decisions. This invention features stable communication, wide coverage, strong real-time performance, and a high degree of intelligence, effectively improving command efficiency and firefighter operational safety at fire rescue sites.
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